Machine for securing sealing-caps to bottles.



, A. J ONES.

MACHINE FOR SECURING SEALING CAPS T0 BOTTLES.

W1 TNESSES 7 APPLICATION FILED NOV. 17, 1904.

Pzitented Oct. 6, 1908.

10 SHEETS-SHEET 1.

INVE Wok. BY

A TTORNE V8.

A. JONES. MACHINE r012 SECURING SEALING GAPS T0 BOTTLES. APPLICATION FILED NOV. 17, 1904.

900,550. Patented 0ct.6,1908.

10 SHEETS-SHEET 2.

WITNESSES: INVENTOR.

} ATTORNEYS,

A. JONES. MAGH INE FOR SECURING SEALING GAPS T0 BOTTLES APPLIOATION FILED NOV. 17, 1904. Patented Oct. 6, I v 10 SHEETS-SHEET 3.

I v INVENTORK/ WITNESSES.-

A. JONES.

MAGHINE FOR SECURING SEALING GAPS T0 BOTTLES.

APPLIOATION FILED NOV.17, 1904.

Patented Oct. 6, 1908.

10 SHEETS-SHEET 4.

WITNESSES: INVENTOR.

A T TOR/VE V5.

. x A. crowns. MACHINE FOR SECURING SEALING GAPS T0 BOTTLES.

APPLICATION FILED NOV,17, 1904.

900,550. Patented 001;. 6, 1908.

10 SHEETS-SHEET 5.

. if" I WITNESSES: l/VVEN 7 OR.

Z2 WW film A T TOR/VB VS- A. JONES.

MACHINE FOR SECURING SEALING: GAPS T0 BOTTLES.

u x T 6 M m Emu m w %w m P Q M m mm m D m T w w M H A Q 5 O 0 9 WITNESSES:

I Z lNI ENTOR. r

A TTOR/VE V5,

A. moms. MACHINE FOR SEGURIN SEALING GAPS T0 BOTTLES.

APPLIOATIO I'ILBD HOV. 1'7, 1904. I 1 Patented Oct. 6, 1908. 10 SHEETS-SHEET '1.

A T TORNE V5.

v A. JbNES. MACHINE FOB SECURING SEALINGOAPS T0 BOTTLES.

APPLIUATIOK FILED NOV. 17, 1904. Patented Oct. 6

10 SHEETS-:SHIBET 8.

mm W I r f6 5 w 11* I 1 2 ATTORNEYS.

A. JONES. x MACHINE FOR SECURING SEALING GAPS T0 BOTTLES.

APPLICATION FILED NOV. 17, 1904.

900,550, Patented Oct. 6, 1908.

10 SHEETS-SHEET 9.

WITNESSES: ava}? K50 g INVEN'IOR. f6.

A TTO/BNE VS.

0 0 A. JONES. MACHINE FOR SECURING SEALING GAPS T0 BOTTLES. 'APPLIOATION FILED NOV.1'I, 1904.

900,550. Patent ed Oct. 6, 1908 10 SHEETS-SHEET 10 WITNESSES: 7 INVE ZVTOR.

h mw lw 0 aw/i.

ATTORNEYS- ALBERT Jones,

To all whom it may concern:

, city- UNITEDSTATES PATENT OFFICE.

OF BALTIMOREIMARYLAND, A'fs'h [GNOR TO LEWIS KALLING, OF BALTIMORE,

MARYLAND.

MACHINE FOR SECURING- SEALING-CAPS TO BOTTLES f Specification of Letters Patent.

Patented Oct. 6, 1908.

. Application filed November 17, 1904. Serial No. 233,114.

Jones, of the of Baltimore and State "of Maryland, have invented certain Improvements in Machines for Securing Sealing-Caps to Bottles, of which the following is a specification.

This invention relates to, an improved ma- Be it known that I, ALBERT chine for securing to bottle heads, sealing caps. which inclose within their flange or vertical wall, an angular compressible gasket or acking ring. i 1 i I ealin caps of substantiallythe character describe are'shown in Letters Patent Nos. 561,792 and 697,491 granted respectively, on the 9th day of June 1896, and the 15th day of April 1902, to Lewis Kalling, to which I said sealing cap referenoeshould be made. To secure I the on abottle head, a portion of the wall of t e cap is crushed, flattened, or elongated so as to com ress theinclosed gasket or acking ring w ich forms a jointbetween t e vertical wallor'flang'e of the sealing cap-and the surface ofthe bottle head, an operation which is performed in and by the.

machine formingthe subject of the present invention, .as hereinafter fully described.

Thesealin cap shown, described Let-. ters Patent 0. 697,491 has the ed e of the vertical wall or flange turned inwar to hold the annular gasket or packing ring in place, and one important office of the present invention is to revent the straightenin out of the inturneil portion of the wall or fange of the cap, in the bottle capping operation, as will hereinafter fully appear.

In the further description of the said ,invention which follows, reference is made to the accom anying drawings formingapart hereof, and in which Figure 1 is an exterior side view of the im-' proved machine. Fig. 2 is an. exterior front view of Fig. 1. Fig. 3 is a sectionalview of Fig. 1. Figs. 4, 5, 6, 7and 8, are enlargedcentral sectional views of the capping head I .saidhead, illustrating the relative position of its various parts with respectv to a, bottle should the same be subjected to the operation of the machine, without the capping head thereof being provided with a sealing cap. Fig. 10 is a top view of a portion of Fig. 3. Fig. 11 is atop view of a cylindrical block forming 'a part of the .capping head. Figs. 12 and 13 are respectively, a half side section, and; a top view of a ring forming a part of thecapping head. Fig. 14 is a view similar to Fig. 13, except that certain attachments of the ring are shown. Figs. 15 and 16 are respectively, a top view and a central longitudinal section of one of a series of cap-' drawing aws. Fig. 17 is an underside view of Fig. 12 showing the cap-drawing 'aws therein. Figs. 18 and 19 are respectively, a central'section, and a top view of an annular plate, embodying recesses for the reception of the cap-drawing jaws. Figs. 20 and 21 are respectively, a half section, and a top view of a ring which is seated in the annular plate, shown'in Figs. 18 and 19. Fig. 22 is a sectional view of the combined annular late and'ring, shown in Figs. 18, 19, 2.0 an 21.

'Figs. 23 and24 are, respectively, a half side section, and a partly sectional top view of another ring forming a part of the capping head, and certain attachments, the former showing certain devices whereby sealing caps are guided into the cappF ng head. Fig. 25 is a top view'of Fi 23. ig. 26 illustrates top views of two 0 a series of cap-supporting jaws. Fig. 27 is a section of the lower view shown in Fig. 26 taken on the a1:a:. Figs. 28 and 29 are respectively, an underside view, and a half side section of a retaining ring for the cap-supporting jaws shown in Fig. 26. Figs. 30 and 31 are enlarged details of a certain yielding and self adjusting rest or seat for the bottles to be capped, and hereinafter described. Figs. 32

and 33 illustrate modifications in the construction of the parts shown in Figs. 30 and 31. Figs. 34 and 35 show on a still larger scale, bottle heads with sealing caps thereon, the first figure illustrating the cap before, and the latter after the sealing operation. Figs. 36 to 39 inclusive are enlarged details of certain mechanism shown in Fig. 3.

Referring now to the drawings, and particularly to Fig. 3, 1 is the base of the machine, and 2 the columnar frame, bolted to the base, The upper portion of the coldotted line.

uninar frame is bored to receive the hollow vertically moving bar 3, carrying at ts upper end the bracket 5 to which the capping head hereinafter described is secured. At the lower end of the hollow bar 3, is formed an eye to which a rod 6 is jointed by means of a pin 8; and the lower extremlty of the sald rod is connected to the crank-pin 7 ofthe crank disk 9 fastened to the shaft 10, adapted to rotate in a bearing forming a portion of the base 1.

12 is the driving pulley, and 13 an ordinary clutch o erated through the medium of a system of evers from the treadle 14, to

start the revolution of the shaft, and effect the operation of the machine.

15 1s a cam (see Figs. 3 to 9 inclusive and Fi 36) secured to the crank pin 7; and 17 a bar of rectangular cross section (see Figs. 3 and 36) arran ed to slide in a channel extending longitu inally of the rod 6, and retained in position by means of the plates 18.

At the lower end of the bar 17 is a pin carrying a roller '19 which rests on the operative portion of the cam 15, which in the construction shown, is its periphery. The up er end of the bar 17 ro ects into the forke end of the rod 6, and end of the rod 21 which is central within, and guided by the hollow bar 3. V

The lower end of the rod 21 is slotted in order that the pin 8 will not interfere with its longitudinal motion. The slot is shown in Fi s. 3 and 36, and denoted by 20.

he upper end of the rod 21 serves to operate in one direction a double ended lever 23'hereinafter described, and both it and the inner end of the lever 23 are yieldingly held down by a s ring 25 and the sleeve 27 in which the sai spring is confined by means of the nut 29 screwed into the bar 3. I 4 30 is a fixed post projecting upward from the top of the columnar frame 2, and situated between the fixed lugs 31 extending rearward from the hollow bar 3. These devices serve to guide the hollow bar 3 in its up and down motion and prevent lateral or vibratory movement of the bracket 5 and the capping from.

The ca head which is dependent thereping head as an entirety is denoted by A, am It is shown on an enlarged scale in Fi s. 4 to 9 inclusive. It consists of a central ho low cylindrical block 33, a top view of which is shown in Fig. 11. v

34, 34 are cylindrical holes, preferably eight in number and equidistant a art, which extend entirely through the sai cylindrical block in a vertical direction. These holes are contracted at the lower end for a purpose hereinafter described, and closed at the top by a circular plate 35 which is held in place on the block 33 by a shoulder 36,

rmed on a hollow stud 37 which is screwed into the block.

is in contact with the lower a The portion of the stud 37 above the plate 35 slides in the bracket 5, and receives an up and down motion through the medium of the double. ended lever 23, the outer end of which enters a slot 38 in the stud as shown in Figs. 3 and 4. It will be understood that the downward motion of the stud and its cylindrical block is effected by the upward movement of the bar 21, in which movement the spring 25 is compressed; and its u ward motion, upon the return of the bar 21, liy the extension of the said compressed spring.

40 is a ring hereinafter referred to as the upper ring, (see Figs. 4, 5, 12, 13, 14 and 17) a a ted to slide vertically on the cylindrical blodk 33, having lugs 41 which are diametricall opposite each-other. These lugs are bore to receive the stems 42, and are counterbored at the bottom to provide annular spaces around the said stems for the coiled springs 43 and the enlargements 44 of the stems, between which enlargements and the shoulders 45, the said springs are confined endwise.

47 is a cylindrical extension on the bottom of the upper ring 40 (see Fig. 12) having an inwardly projecting annular flange 48.

49 is an annular plate (see Figs. 18 and 19 which are respectively a half side sec tion, and an underside view) having a diameter equal to that of the interior of the extension 47 of the upper ring 40, and provided with eight grooves 50, which extend radially from its inner diameter. In each of these grooves 50, is a cap-drawing or sealing jaw 52 (see Figs. 15 and 16, which are respectively a longitudinal section, and a top view of one of the jaws). These jaws which serve to draw and flatten the head or vertical wall of the scaling cap containin the joint forming gasket or packing ring, have beveled or inclined lugs 53, and at their inner ends are provided with downwardly extending lips 54 with curved ca i drawing faces 55.

he outward movement of the cap drawing jaws is limited by their lips 54, coming in contact with the inner circumference of the inwardly projecting flange 48, which movement is influenced by the coiled s rings 56 confined within ockets formed in the ring 58 shown particu arly in Figs. 20, 2,1 and 22, and have their outer ends in contact with the lugs 53.

The ring 58 fits within the annular plate 49 and is providedwith a flange 60 which is notched to produce projections which enter and fit the grooves 50 in the said annular plate. When these two parts are brought together they form practically one body in which the ca -drawing jaws are confined and adapted to slide.

'62 is a second and lower ring (see Figs. 23 and 24) bored to fit around the downward extension 47 of the upper ring 40 and it has lugs 64 which in position correspond with the lugs 41 of the upper ring 40. These lugs 64 are bored and counterbored like those 4.1, to

receive the lower portions of the stems 42,

which stems at their bottom ends have screw caps 65 situated within the said lugs.

66, 66 are springs w 'ch have the same strength or tension as the springs 43 coiled about the stems 42 and confined endwise between the shoulders 68 and the caps 65.

The contracted ortion of the lower ring 62 is centrally borethe hole 70 having a diameter somewhat greater than that of the sealing cap to be affixed to the bottle head; and the said hole is flared outwardly as shown, to facilitate the entrance thereto of the bottle head.

, The bottle head isdenoted by 71 and the sealing ca by 72 (see Figs. 34 and 35) the former as before stated, showing the cap before and the latter the same after the sealing operation. The gasket or packing ring is denoted by 73. 4

75, 75 are the cap supporting jaws, shown particularly in Figs. 27 and 26 which are rej and a top view of two jaws. These jaws are placed on the u per and horizontal surface of the contracte portion of the lower ring 62, g

and covered, with the exception of their inner-ends which (project upward as lips, by a radially groove annulus 77, the grooves f which are denoted by 78, constituting fpoo ets in which the said jaws slide ra ially. The inner ends of these jaws have faces which are curved, as shown in Fig. 27 -,*and the upper surfaces of the lips form a continuous ring constituting the support for the sealing caps, which support is 1n alinement with the upper surface of the annulus 77.

The inward movement of the cap supporting jaws is limit-ed by the shoulders 79 coming against the lip 80 at the inner circumference of the lower ring 62; and the said movement is effected by the springs 81 in pockets 82 (see Figs-24, 26 and 27). The outer ends of the said springs are confined in headed shells 83 which bear against the inner circumference of the contracted portion of the ring 62.

85, 85 are bolts with conical lower "ends situated in theholes 34 in the cylindrical block 33, with their points which pass through holes 51 in the annulus 49,-and come in contact with the inclined lugs 53 of the -cap drawing jaws. They are springv held, and the springs 86 have sufficient strength to cause the cap drawing jawsto draw the sealing capsoverthe' bottle head and effect the sealing or capping operation; but 'said springs allow the said jaws to yield when sufficient stress is applied to effect tliat result, thereby eliminating the possibility of crushing'the bottle heads.

' 87 and 88 are collars dn the stems 42 with $6 which collars by means of the springs 66and spectively a longitudinal section of one jaw,-

43, the upper surfaces of the lower and upper rin s62 and 40 respectively, are normally held in contact, whenthe capping head is in its highest position. The upper ends of the stems 42 are secured to lugs forming parts of the bracket 5.

90 is a channel, (see Figs. 23 and 25) whereby sealing caps are introduced into the capping head.- lts width is slightly greater than the exterior diameter of the sealin caps, and its depth somewhat exceeds the thickness of the caps, and it is referably covered by a plate 91 shown in ig. 23.- This channel is secured in any suitab e manner to the lower ring 62 the wall of which is provided with an opening 94 of such size as will admitof the assiage of thesealing caps into the capping 92, 92 are cities which form a continuation of the c annel 90 within the capping head. They are fastened to the upper surface of the slotted annulus 7.7, and provided with overhanging lips one of which 1s shown as removed in Flg. 25.

The bed of the channel 90 is in horizontal alinement with the cap supporting surface of the jaws 75, as shown in 23.

By reference to Figs. 15, 16, 17 and 25, it will be seen that. three of the capalrawin jaws are furnished with pins 93. arrange with respect to the guides 92 as shown in Figs. 17 and 25, that is to say, one pin stopm an entering sealing cap when it reaches t e center of a cappin head, while the others.

prevent its lateral isplaceme'nt. In Fig. 25 these pins would not properly ap ear, and they are only shown to illustrate t eir oflice as described.

Within the flaring mouth of the channel-9c is situated a leaf spring 96 the active end of which passes through a hole in and extends slightly above the bed of the channel. The purpose of this spring is to confine in close contact, -a predetermined number of sealing caps with-in the -channel, a d with the first oneof the series in capp' ca ping head, as shown in ig. 25.

he bottle seat hereinbefore briefly it;

ferred to, and which is represented as an entirety by B, consists in a combination of d'e- .yi-ces as follows: IOU-is a hollow bracket projecting from the columnar frame 2 and directly below the caping head. Its up er and lower walls are ored in vertical a inement with the axis of the said head and in the upper hole is placed a cylindrical nut 101 having wings to prevent its turning, as shown in igs. 3, 37 and 38.

' 102 is a spiral sprng which yieldingly sup ports the not 101, and within the nut is laced a hollow screw 103 car ing a bottle a older 104 at its upper end. Z

is dished "and the surfaces of the dished spur-- 89 '1 e holder 104 tion are grooved as shown in 3 an position in the Within this holder is placed a block, preferabl of rubber, upon which the bottles to he sea ed are placed. The grooves in the holder communicate with the hole in the screw 103 in order that any liquid collecting on the top of the seat may escape. 4

By turning. the bottle holder on its axis, ,its position maybe adjusted to suit bottles of various heights; and it may be locked when adjusted, by the locking nut 106.

The tail piece 107 of the screw 103 passes through the lower wall of the hollow bracket .100 and also through a guide 108 situated beneath and forming a part of the said bracket. .The upper portion of the said tail piece is formed as a cylindrical rack 109 which in certain circumstances hereinafter described, is acted upon by differential pawls 110 ivoted to the bracket at 111. To these pawi; is fastened a vertical extension 112 which is jointed to the lower end of a lever cam 113 fulcrumed within the bracket at 1 14. 115.is a stop to prevent the outer move- :ment of the upper end of the lever cam.

'By reference to Figs. 3 and it will be i seen that the pin 8 of the joint 6' extends to contact with the inoperatlve portion of the lever cam; and the construction and arrangement of the parts are such, that when the capping head as reached apoint in its downward travel, a pre-determined distance,

. say, one-half of an inch from its extreme limit, the pin 8 will have moved the lever earn 113 inward to such a distance that one or the other of the differential pawls 110 will engage the rack and lock the bottle seat.

' .The differential pawls may be yieldingly held from contact with the teeth of the rack 109 by providing the guide 108 with a lug, and insertin between the lug and the end or butt "of the awls, a suitable spring, as shown in dotted lines in Fig. 30.

' An alternative construction of the mechanism shown in Figs. 30 and 31 is illustrated in Figs. 32 and 33 to which reference should 'now be made. In the said figures the hollow screw 103 is rovided with a nut 120 which is situated be ow the hollow bracket 100, to whichis fastened a flat rack 121 guided at its lower end by the guide 122 which is shown as constituting a part of the guide 108. This fiat rack has the advantage over the cylindrical rack, in that a larger and a straight surface is resented to the differential pawls 110, and t e wear of the parts is thereby reduced.

Supposing the bottle seat to have been adjusted in height by turning it on its axis so as to suit bottles of a certain standard length, which length however frequently varies to the extent of about one-half an inch, and an uncapped bottle is standing on the said seat; and that the various parts of the machine occupy the relative positions indi cated in Figs. 1, 2, 3 and 4, t 16 elements of the capping head will be relatively placed as shown in Fig. 4, which represent what I term the first position. At t iis time the crank pin 7 is in its highest point, and the position of the cam 15 such that the upper and lower rings 40 and 62 are separated to their extreme limit, and bear against the collars 88 and 87, respectively. The conical ends of the stems will then be in contact with the inclined surfaces of the lugs 53 of the cap 75 drawing jaws 52, and will have closed the said jaws com letely. The lower surface of the cylindrica block 33 will then be in contact with the shoulder formed by the contracted ortion of the upper ring within the same, t ius preventing further downward movement of the stems 85.

In Figs. 4, 5, 6, 7, 8 and 9 many of the reference numerals are omitted, as their insertion would tend to obscure the delineation of parts of the capping mechanism, and reference should therefore be made also to Figs. 22, 23, 24 and 25 which illustrate certain of the said parts in the peculiar relative positions, shown in Figs. 4 to 9 inclusive.

When the capping head is in the 1st position, it is ready to receive a sealing cap as a preparatory step towards the ca ping operation. The channel 90 being fil ed between the plate spring 96, and the inner ends of the guides 92, another sealing cap is inserted in the said channel'by being pushed over the plate spring, and in this operation the first cap inserted, is pushed centrally of the cap supporting jaws when it is stopped and 0011- tered by the pins 93. The machine is now placed in operation, the crank disk taking the direction indicated by the curved arrows, and as the cam 15 passes from the first, to the second position shown in Fig. 6, the lower surface of the circular block 33 is brought in contact with the shoulder formed by the contracted portion 47 of the upper ring 40.

Before reaching the second position, the sealing cap will have been clamped between 11.0 the cap drawing, and the cap-supporting jaws, and as soon as this clamping operation has taken place, a combine d downward move ment of the upper and lower rings 10 and 62 with their attachments is effected by the cam 15, and'at the same time the capping head as anentirety together with the sealing cap is brought down until the sealing ca is seated iirmly on the bottle head. It wil be understood that in view of the springs 86 overcoming the resistance of the springs (50, the sealing cap is prevented from 1passing into the throat formed by the closed rawing jaws, and eii'ecting a premature crushing or drawing of the portion of the cap flange which incloscs the joint forming gasket or ring. I

As the capping head passes from the second to the third position, the cam 15 is inoperative and the bottle with a cap seated on 13o seat is prevented.

its head is-carried downwardby the action of the crank until it reaches a point at which the final sealing or capping operation takes place, which is say, one-hal an inch from the termination of the downward stroke of the crank. In the downward movement of the head as an entirety, and the bottle, as described, the

resistance of the spring 102 which sustains the bottle seat, is overcome by the springs As the crank moves from the third to the Qfourth position, the final sealing or capping 2 0 foperation takes place, which operation consists first in the downward motion of the head with the exception of the lower ring 62 which remains stationary. This complex movement causes the capdrawing jaws to be forced over the cap, and upon its termination by the collars 87 coming in contact with the lower ring 62, the entire head is brought down until the crank pin reaches the lower center. i

From the foregoing description it will a pear that as the sealing cap is held tightly between the cap drawing, and cap-supporting jaws during the first portion of the final capping operation, the inturned edge of the flange of the sealing cap therefore cannot change from its introverted condition, and there is no possibility of the inclosed gasket or acking ring becoming displaced, or partial y escapingfrom the cap-sas it is compressed.

In the cap-drawing or sealing operation, the cap-drawing jaws 52 being yleldingly held by the s rings 86, distend slightly should the bott e head be larger in diameter than the normal size.

It must be borne in-mind that the sealing operation consists in the reduction in diameter of the flange of the sealing cap, and the p consequent reduction in thickness of thejointforming ring'or gasket which is interposed between the bottle head and the said flange, and this is exactly what is performed in the operations above described.

In the crank passing from the fourth to the fifth position, t e entire head is elevated, the upper ring and the cylindricalblock moving more rapidly thanithe lower ring, owing to the action of the cam 15, and in consequence, the conically pointed stems are withdrawn from contact with the inclined surfaces of the jaws 52 and the said jaws are allowed to distend, and be removed from the sepling cap on thebottle.

. l V In'vrew of the ,rounded surface of the ca supporting jaws 7 5 and the weakness of t e springs 81, the said devices have no tendency to lift the bottle from its seat, the said jaws yielding as the head is lifted from the bottle.

It will be understood that a continued upward movement of the head as just described, returns the head'to the first osition, when another sealing cap is intro uced into the channel 90, and the apparatus is then ready for the next sealin operation.

In case the mac line is put in operation with a bottle on its seat, but no sealing cap in position, the movement of the capping head erforms no function, the bottle head entermg the throat or clear space within the capdrawing jaws without being touched by them, as shown in the sixth position, Fig. 9.-

I claim as my invention:

1. In a machine to compress an annular gasket or joint forming ring, between the flange of a sealing ca and the surface of a bottle head, the com ination of a capping mechanism provided with cap-drawing devices, and ca -supporting devices, means to effect the hol ing of a sealing cap .between the said cap-drawing and cap-sup orting de vices, means to bring a bottle hea within the held sealing cap and to jointly put in motion the ca drawin devices to effect the sealing of the ottle, su stantially as specified.

2. In a machine to compress an. annular.

gasket or joint forming ring between the flange of a sealing ca and the surface of a bottle head, the com ination of a capping mechanisnrprovided with cap-drawing devices, and ca supporting devices, means to efl'ect the ho ding of a sealing cap between the said cap-drawing) and cap-sup orting devices, and means to ring a bottle ead within the held sealing cap and move the cap ingmechanism as an entirety down and a ong the sealing cap, substantially as specified.

3. In a machine to compress an annular gasket or joint forming ring, between the flange of a sealing cap and the surface of a bottle head, the combination of a seat for the bottle, a capping mechanism provided with cap drawing devices, and cap supporting devices, mechanism to effect a vertic. reciprocating motion of the cap ing mechanism as an entirety, and other mechanism to produce an independent reciprocating motion of the ca drawing andthe cap-supporting devices, su stantially as specifi d.

4. In a machine to compress an annular gasket or joint forming ring, between the ver-' tical flange of a sealing cap and the surface of a bottle head, for the purpose described, the combination of a seat for the bottle, a capping mechanism provided with yieldinglyeld cap-drawing devices, distensible suporting devices for the sealing caps, mechanism to effect a vertical reciprocating motion of the-said capping mechanism, and other mechanism to produce an up-and-down motion of one of the said sets of devices inde-' jpendently of the other, substantially as speci 5. In a machine to compress an annular gasket or joint forming ring, between the vertical flange of a sealing cap and the surface of a bottle head, for the purpose described, the combinationof a seat for the bottle, a capping mechanism provided with yielding y-held cap-drawing devices, distensible cap-supporting devices, means to introduce sealing caps to the cap-supporting devices, mechanism to efiect a vertical reciprocating motion of the said capping mechanism, and other mechanism to produce an upand-down motion of one or both of the said sets ofdevices independently of the other, substantially as specified.

6. In a machine to compress an annular gasket or joint forming ring, between the vertical flange of a sealing cap and the surface of a bottle head, for the purpose described, the combination of a seat for the bottle, a capping mechanism provided with cap-drawing devices, and means to sustain them yieldingly in capping position; cap'supporting devices,sustaining appliances to hold the said cap-supporting devices yieldingly in cap-supporting position, mechanism to effect a movement of the capping mechanism as an entirety towards and away from the bottle seat, and other mechanism to produce an independent vertical reciprocating motion of the said sets of devices independently of the other, substantially as specified.

7. In a machine to compress-an annular gasket or joint forming ring, between the vertical flange of a sealing cap and the surface of a bottle head, for the "purpose described, the combination of a seat for the bottle, a capping mechanism provided with cap-drawing and cap-supporting devices, and a mechanism whereby the capping mechanism as an entirety, and the elements thereof which carry the cap-dravving and cap-sustaining devices, are independently moved in an upward and downward motion, substantially as specified.

8. In a machine to compress an annular gasket or joint forming ring, between the vertical flange of a sealing cap and the surface of a bottle head, for the purpose de scribed,- the combination. of a seat for the bottle, a capping mechanism provided with cap-drawing and cap-supporting devices,

and a combined crank and cam mechanism whereby the capping mechanism. as an entirety, and the elements thereof which carry the cap-drawing and the cap-sustaining devices are independently moved in an upward and downward motion, substantially as specified.

9. In a machine to compress an annular gasket or joint-forming ring, between the vertical flange of a sealing cap and the surhead are brought into vmechanism to bring with the ceased face of abottle head, the combination of a bottle seat, a capping-head com rising a central annular or hollow cylindrical block, a ring Jlaced extcriorly of and adapted to have a sh ing movement on the said -block, capdrawing jaws supported by the said ring, spring-held appliances situated within the said block whereby the said cap-drawing jaws are retained in capping position, a sec- 0nd ring which surrounds the first ring and is arranged to slide thereon, spring-held cap supporting devices which are carried by the second ring, and spring appliances which tend to retain the said rings separated indcpendently of the central block, substantially as specified.

10. In a machine to compress an annular gasket or joint-forming ring between the vertical flange of a sealing cap and the surface of a bottle, the combination of a bottle seat, a vertically movable capping head comprising a central block, a ring adapted to slide vertically of the said block and carrying a system of radially arranged s ring held cap drawing jaws, a second ring a( opted to slide on the first, a system of distcnsible cap-supporting jaws situated within the second ring, mechanism to elevate the upper ring with its cap-supporting jaws upon the central block, and the lower ring upon the first ring, whereby the operative elements of the capping capping condition, and the said head while in capping condition over the head of a bottle standing on a seat, substantially as specified.

11. A bottle-cap ing head, having in combination, a central sleek, a ring carrying capdrawing jaws, a second ring carrying capsupporting devices, stems to connect the said rings, springs which yicldingly hold the rings in a separated position, and means to force one ring towards the other, substantially as specified.

12. In a machine for securing scaling caps to bottles, the combination of a frame carrying a capping-head embodying cap-draw iug and cap-supporting 'lc;icc-: which, in the capping operation, have to be placed in va-- rious relative positions, a driving sh aft cur .rymg substantially a crank and a cam, bars of each other by the operated independently said crank and cam, and a mechanism adapted to impart an up-nnd-down movement to the said capping-head, to which the said bars communicate movement, one of the said bars modifying the sheet of the Z other in the said up-and-down motion of the said elements of capping head, substantially as and for the purpose specified.

13. In a machine for securing sealing caps to bottles, a capping-head, combined with a yielding bottle seat, and devices, actuated from the capping-head, and cod crating yieldlng bottle seat, when t 1e parts have reached a predetermined position, to

arrest the motion of the bottle seat, substantially as and for the purpose specified.

14. In a machine for securing sealingcaps to bottles, a capping head combined w1th a spring-held seat for' "the bottles, sa1d seat provided with a rack, combined with a pawl mechanism, devices actuated from the ap pliances which actuate the parts of the cap-.

capping mechanism, and causing the pawlmechanism to become operative, by engagement with the rack, at a predetermined position of the parts of the capping mechanism, and so prevent further depression of the bottle seat, substantially as and for the purpose specified.

16. In a machine for securing sealing caps to bottles, a capping mechanism, a vertical adjustable bottle seat, a sustainingspring for the said seat, a rack-bar having a vertical reciprocating movement in common with the seat, combined with a pawl held ieldingly from contact with the said rackar, and a mechanism actuated from the capping mechanism, which, as the capping mechanism. reaches a predetermined point in its downward movement, forces the said pawl into engagement with the said rack-bar, and so revents its downward motion, substantial y as and for the purpose specified.

17. In a machine for securing sealing caps to bottles, a capping-head provided with cap-drawing devices and with acap-centering means consisting of a plurality of pins secured to the cap-drawing devices, substantially as specified.

18. In a machine for securing sealing caps to bottles, a capping mechanism provided with cap-drawing and cap-supporting devices, and with yielding connections between the said sets of devices, and yielding connections for driving one of the sets independently of the other, substantially as specified.

19. In a machine for applying bottle seals, a bottle support, means acting through a bottle to be sealed, to depress said support upon the application of the initiaL pressure,-

whereby said support is moved to a point to receive the final sealing pressure, and means for locking said support in such position, so that excessive pressure cannot be laced upon the bottlenotwithstanding variations in the length of the bottles to be sealed.

20. In a machine for applying bottle seals, a sealing head, a bottle support, means for moving one of said parts relative to the other to get the desired sealing pressure, one of said partsbeing adapted to be operated upon by the other through theinstrumentality of the bottle to be sealed, to cause the part operated upon to be moved to a point to apply the final sealing pressure, and

means for locking said part in such position so that excessive pressure cannot be place upon the bottle notwithstanding variations in the length of the bottles to besealed.

21. In a machine for applying bottle seals, a seal applying plunger, a bottle support, said plunger being adapted to act upon a bottle upon the support to cause said support to be depressed to proper position relative to the seal applying p unger, upon the application of initial sealing pressure, and means for maintaining said support in such position to receive the final sealing pressure whereby only substantially the required pressure is applied to the bottle regardless of variations in length thereof, substantially as specified- 22. In a machine for applying bottle seals, a pressure applyin head, means for moving said head vertica ly, means for returning said head to normal position, a bottle support, a rack upon said support, a device adapted to engage said rack to arrest the downward movement of the bottle support for the purpose set forth, and means for actuating said device upon the downward movement of the head to cause it to engage said rack.

23. In a machine for applying bottle seals,

a yielding sealapplying plunger, a bottle support, said plunger being adapted to act upon a bottle upon the suipport, to cause said supportto be depresse to proper position relative to the seal applying plunger,

upon the application of initial sealing pressure, and means for maintaining said support in such position .to receive the final sealing pressure, so that excessive pressure cannot be placed upon the bottle notwithstanding variations in thelength of the bottles to be sealed.

ALBERT JONES. Witnesses:

OREGON MILTON DENNIS,' JOHN H. SPARHAUK. 

